source file of the GNU LilyPond music typesetter
- (c) 1997 Han-Wen Nienhuys <hanwen@stack.nl>
+ (c) 1997--1999 Han-Wen Nienhuys <hanwen@cs.uu.nl>
*/
#include "gourlay-breaking.hh"
#include "colhpos.hh"
#include "spring-spacer.hh"
#include "debug.hh"
-#include "p-col.hh"
-#include "p-score.hh"
+#include "paper-column.hh"
+#include "paper-score.hh"
#include "paper-def.hh"
+#include "killing-cons.tcc"
-const HAPPY_DOTS_I = 3;
+/// How often to print operator pacification marks?
+const int HAPPY_DOTS_I = 3;
/**
Helper to trace back an optimal path
*/
int prev_break_i_;
+ int line_i_;
Real energy_f_;
- Col_hpositions line_config_;
- Break_node()
+ Column_x_positions line_config_;
+ Break_node ()
{
prev_break_i_ = -1;
+ line_i_ = 0;
}
};
/**
- This algorithms is adapted from
+ This algorithms is adapted from the OSU Tech report on breaking lines.
+
*/
-Array<Col_hpositions>
-Gourlay_breaking::do_solve() const
+Array<Column_x_positions>
+Gourlay_breaking::do_solve () const
{
-
Array<Break_node> optimal_paths;
- Line_of_cols all = all_cols();
- Array<int> breaks = find_break_indices();
+ Line_of_cols all = pscore_l_->col_l_arr_ ;
+ Array<int> breaks = find_break_indices ();
- optimal_paths.set_size (breaks.size());
+ optimal_paths.set_size (breaks.size ());
Break_node first_node ;
first_node.prev_break_i_ = -1;
first_node.line_config_.energy_f_ = 0;
+ first_node.line_i_ = 0;
optimal_paths[0] = first_node;
int break_idx=1;
- for (; break_idx< breaks.size(); break_idx++)
+ for (; break_idx< breaks.size (); break_idx++)
{
Array<int> candidates;
- Array<Col_hpositions> candidate_lines;
- Pointer_list<Line_spacer*> spacer_p_list;
+ Array<Column_x_positions> candidate_lines;
+ Cons_list<Line_spacer> spacer_p_list;
/*
start with a short line, add measures. At some point
continue;
Line_of_cols line = all.slice (breaks[start_idx], breaks[break_idx]+1);
-
- line[0] = line[0]->postbreak_l();
- line.top() = line.top ()->prebreak_l();
+
+ line[0] = dynamic_cast<Paper_column*>(line[0]->find_prebroken_piece (RIGHT));
+ line.top () = dynamic_cast<Paper_column*>(line.top ()->find_prebroken_piece (LEFT));
if (!feasible (line))
break;
- Col_hpositions approx;
+ Column_x_positions approx;
approx.cols = line;
- approx.spacer_l_ = generate_spacing_problem (line);
- spacer_p_list.bottom().add (approx.spacer_l_);
+ approx.spacer_l_ = generate_spacing_problem (line,
+ pscore_l_->paper_l_->line_dimensions_int (optimal_paths[start_idx].line_i_));
+ spacer_p_list.append (new Killing_cons<Line_spacer> (approx.spacer_l_,0));
- ((Break_algorithm*)this)->approx_stats_.add (approx.cols);
- approx.approximate_solve_line();
+ ( (Break_algorithm*)this)->approx_stats_.add (approx.cols);
+ approx.approximate_solve_line ();
if (approx.energy_f_ > energy_bound_f_)
{
int minimal_j = -1;
Real minimal_energy = infinity_f;
- for (int j=0; j < candidates.size(); j++)
+ for (int j=0; j < candidates.size (); j++)
{
int start = candidates[j];
if (optimal_paths[start].line_config_.energy_f_
if (!candidate_lines[j].satisfies_constraints_b_)
{
- candidate_lines[j].solve_line();
- ((Break_algorithm*)this)->exact_stats_.add (candidate_lines[j].cols);
+ candidate_lines[j].solve_line ();
+ ( (Break_algorithm*)this)->exact_stats_.add (candidate_lines[j].cols);
}
Real this_energy
{
optimal_paths[break_idx].prev_break_i_ = candidates[minimal_j];
optimal_paths[break_idx].line_config_ = candidate_lines[minimal_j];
+ optimal_paths[break_idx].line_i_ =
+ optimal_paths[optimal_paths[break_idx].prev_break_i_].line_i_ + 1;
}
- if (!(break_idx % HAPPY_DOTS_I))
- *mlog << "[" << break_idx << "]"<<flush;
+ if (! (break_idx % HAPPY_DOTS_I))
+ *mlog << "[" << break_idx << "]" << flush;
+
+ spacer_p_list.junk ();
}
if (break_idx % HAPPY_DOTS_I)
- *mlog << "[" << break_idx << "]"<<flush;
+ *mlog << "[" << break_idx << "]" << flush;
Array<int> final_breaks;
- Array<Col_hpositions> lines;
+ Array<Column_x_positions> lines;
- Real max_energy_f = 0;
-
/* skip 0-th element, since it is a "dummy" elt*/
- for (int i = optimal_paths.size()-1; i> 0;)
+ for (int i = optimal_paths.size ()-1; i> 0;)
{
final_breaks.push (i);
assert (i > optimal_paths[i].prev_break_i_);
// there was no "feasible path"
- if (!optimal_paths[i].line_config_.config.size()) {
+ if (!optimal_paths[i].line_config_.config.size ()) {
final_breaks.set_size (0);
break;
}
i = optimal_paths[i].prev_break_i_;
}
- print_stats();
- /*
- TODO print variation in energy
- */
- if (max_energy_f)
- {
- ;
- }
-
-
- for (int i= final_breaks.size(); i--;)
+ for (int i= final_breaks.size (); i--;)
lines.push (optimal_paths[final_breaks[i]].line_config_);
-
return lines;
}
-Gourlay_breaking::Gourlay_breaking()
+Gourlay_breaking::Gourlay_breaking ()
{
get_line_spacer = Spring_spacer::constructor;
energy_bound_f_ = infinity_f;
}
void
-Gourlay_breaking::do_set_pscore()
+Gourlay_breaking::do_set_pscore ()
{
energy_bound_f_ = pscore_l_->paper_l_->get_var ("gourlay_energybound");
max_measures_i_ =int (rint (pscore_l_->paper_l_->get_var ("gourlay_maxmeasures")));